DE102016119522A1 - Device for stabilizing the run of a metal strip - Google Patents

Abstract

The invention relates to a device for stabilizing the running of a metal strip comprising a carrier extending on both sides of the metal strip parallel to the strip plane with cheeks angled at the opposite ends, a nozzle structure extending between the cheeks with a hollow bar, formed on the wiping nozzles over the width of the metal strip are and a stabilization module, which is attached to the carrier so that it is adjustable relative to the carrier perpendicular to the belt plane and disposed between the carrier and the nozzle assembly.

Description

The invention relates to a device for stabilizing the running of a metal strip, in particular in a galvanizing plant.

Out EP 1 918 410 B1 a device of this type is known, wherein on both sides of the metal strip on a running parallel to the belt level support, under which a series of Abstreifdüsen is mounted, another carrier is placed at a distance above it, which carries a stabilization module with actuators by means of electromagnets stabilize the run of the metal strip between the wiping nozzles on the opposite sides of the metal strip. By suspending the stabilization module on a separate carrier, the stabilization module can be easily mounted and replaced.

The invention has the object of providing a device of the type described in such a way that the distance between the wiping and the line of action of the actuators can be reduced to the metal strip without the benefits of the known design regarding assembly and interchangeability of the stabilization module are affected.

This object is achieved in that a single carrier is provided transversely to the direction of the belt and substantially parallel to the belt plane having at the opposite ends downwardly angled cheeks, at the lower ends of a hollow beam with the row of wiper nozzles is attached wherein the stabilizing module is replaceably mounted on the carrier and extends between the carrier and the wiping nozzles.

In this way, the distance between the actuators and the wiper nozzles can be minimized without compromising the ease of assembly and interchangeability of the stabilizer module.

• 1 in einer schematischen Ansicht die Führung eines Metallbandes im Bereich eines Zinkbades einer Verzinkungsanlage,
• 2 schematisch den Aufbau der Vorrichtung in einer Ansicht senkrecht zur Bandebene,
• 3 schematisch einen senkrechten Schnitt durch die Vorrichtung nach 2,
• 4 eine Draufsicht auf die Anordnung der Aktoren in dem Stabilisierungsmodul, und
• 5 eine abgewandelte Bauform in der Ansicht der 2.

For example, embodiments of the invention are explained below with reference to the drawing. Show it

• 1 in a schematic view of the leadership of a metal strip in the range of a zinc bath of a galvanizing plant,
• 2 FIG. 2 schematically shows the structure of the device in a view perpendicular to the strip plane, FIG.
• 3 schematically a vertical section through the device according to 2 .
• 4 a plan view of the arrangement of the actuators in the stabilization module, and
• 5 a modified design in the view of 2 ,

1 shows schematically a galvanizing plant with a furnace 1 through which a metal band 4 is led before it in a zinc bath 2 dips. In the zinc bath, the band 4 for a bath roll 3 towards a refrigeration system 9 steered, with the band 4 before exiting the zinc bath 2 by one or more positioning or stabilizing rollers 5 is supported. After leaving the zinc bath, excess zinc is removed through wiping nozzles 6 away from the belt surface, directing an air jet at the belt surface. To the distance of the tape in the transverse direction, as by a double arrow 7 indicated between the wiping nozzles 6 to adjust and stabilize is a belt stabilizer 8th intended.

The belt stabilizer 8th is in 2 to 4 designed as a stabilization module, wherein the stabilization module is a flat, rectangular housing 12 in which a number of actuators 10 is arranged as the view in 4 shows. This stabilization module is on both sides of the belt 4 arranged at a distance from the belt. In the field of actuators 10 are provided on both sides of the tape unillustrated distance sensors, the distance of the tape 4 from a predetermined desired position (usually the center position between the wiping) measure and pass the distance signals to a control electronics, from which the actuators 10 on the two sides of the volume 4 be driven to a corresponding force on the metal strip 4 exert transverse to its plane when the band layer between the wiping nozzles 6 must be corrected.

The actors 10 preferably have magnetic pole pieces, wherein between the spaced apart in the strip running direction pole pieces preferably the distance sensors are arranged, by means of which the distance of the metal strip is determined by the sensors.

In 2 is the stabilization module 8th shown schematically on or at the bottom of a parallel to the plane of the tape 4 running carrier 20 for example by means of quick release fasteners 12a or is releasably secured or exchangeable by screwing. At the opposite ends is the carrier 20 with cheeks bent downwards 20a and 20b Mistake. At the lower ends of the cheeks 20a and 20b is a hollow beam 21 secured by the air to the stripping nozzles formed along the hollow beam 6 is directed. at 21.1 the air supply is indicated. The carrier 20 with the lateral cheeks 20a and 20b forms together with the hollow beam 21 an approximately rectangular frame into which the stabilization module 8th so used is that a distance above the hollow beam 21 is complied with. As a result, the nozzle assembly from the stabilization module 8th not impaired. In this way, the distance between impact line of air from the wiper nozzles 6 on the tape 4 and the line of action in the stabilization module 8th built-in actuators 10 be set to a minimum. At the same time in this way an optimal air window over the wiper nozzles 6 can be set, through which the air can escape from the wiper nozzles.

For adjusting the vertical distance between actuators 10 and wiping nozzles 6 The actuators can be inside the case 12 or within the stabilization module 8th be arranged adjustable in the direction of tape travel.

It is also possible to use the stabilization module 8th even in the direction of tape travel height adjustable on the carrier 20 attach, with the height adjustment of the stabilization module 8th in addition to the height adjustment of the actuators 10 within the stabilization module 8th can be provided.

4 shows in a cross section a preferred arrangement of the actuators 10 in the stabilization module 8th ,

In the two cases 12 on the two sides of the metal band 4 is each a set of actuators 10 arranged, which have a predetermined distance from each other in the starting position. In the illustrated embodiment, seven actuators each are in a row 10.1 to 10.7 at equal intervals in 4 arranged from each other. Each of the actors 10 is laterally displaceable in the stabilization module 8th arranged so that, for example, the middle three actuators 10.3 to 10.5 can be arranged closer together, like this 4a shows, while, for example, the two outer actuators remain in their original position.

4b shows another example of the arrangement of the actuators 10 in the case 12 in which the middle four actuators 10.3 to 10.6 closer together and the outer actuators 10.1 . 10.2 and 10.7 in the lateral outer area of the stabilization module 8th are positioned. By this lateral adjustability of the individual actuators, the stabilization module 8th to predetermined different widths and lateral positions of the metal strip 4 be set and it is still possible by means of the adjustment of individual actuators 10 a deformation of the metal strip 4 Counteract, for example, in 4 is represented by a dashed line as a curvature of the band level.

In 4a For example, a narrow bandwidth is covered by three actuators, while in the arrangement in 4b a wider band is covered by the four actuators, relative to the stabilization module 8th is slightly laterally offset.

The wider the metal band 4 is, the more actuators are used.

Due to the lateral adjustability of each actuator 10 Optimal actuator positioning can be adjusted relative to any lateral belt position. In other words, the position of the magnets in the actuators 10 and the number of magnets used for vibration damping and reduction of warpage of the metal strip can be optimally selected with high adaptability.

The both sides of the band 4 arranged carrier 20 are for adjusting the distance of the wiping nozzles 6 adjustable from the belt plane perpendicular to the belt plane, as indicated by two double arrows P1 in 3 is indicated.

At the same time are the stabilization modules 8th relative to the carrier 20 and thus relative to the wiping nozzles 6 adjustable perpendicular to the belt plane, as indicated by two arrows P2 in 3 is indicated. Here, the stabilization modules 8th towards the band 4 and off the tape 4 be set off.

At the same time, the actors can 10 within the stabilization module 8th on the tape and off the tape 4 be adjustable away.

In this way, regardless of the setting of the distance between the opposing wiping nozzles 6 in 3 by adjusting the carrier 20 the distance of the actuators 10 be set by the band level.

Preferably, a distance of about 250 mm between the lower edge of the stabilization module 8th and upper edge of the nozzle assembly and the hollow beam 21 provided to avoid turbulence of the air flow in the nozzle gap. This distance forms an air window over the wiper nozzles, through which air can also escape upwards.

In the usual working position of the stabilization module 8th has the inside of the case 12 the two stabilization modules 8th only a very small distance of about 20 mm from the strip surface. The distance of the wiping nozzles 6 of the Ribbon surface is also very low, for example <7 mm. When the stabilizer module is to be replaced or the wiping nozzles 6 should be cleaned, the two carriers 20 be moved apart perpendicular to the web plane, preferably the stabilization modules 8th relative to the carrier 20 further outward to the wiping nozzles 6 easier to access.

There are various modifications of the described design possible. For example, the hollow beam 21 with the wiping nozzles formed thereon 6 between lateral struts 21a be arranged at the lower ends of the cheeks 20a and 20b are positioned as shown schematically 5 shows. Here, the air supply and discharge to the hollow beam 21 through separate lines 21.1 done laterally outside the stabilization module 8th attached to the support structure.

Furthermore, it is possible, an adjustability between the lower edge of the stabilization module 8th and upper edge of the hollow beam 21 on the side cheeks 20a and 20b provide that may be formed telescopically.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• EP 1918410 B1 [0002]

Claims (6)

Device for stabilizing the running of a metal strip, comprising a support (20) extending parallel to the strip plane on both sides of the metal strip (4) with cheeks (20a, 20b) angled between the cheeks (20a, 20b) with a cheek (20a, 20b) extending at the opposite ends hollow beam (21) on which wiping nozzles (6) are formed across the width of the metal strip (4) and a stabilizing module (8) attached to the support (20) so as to be perpendicular relative to the support (20) adjustable to the belt plane and between carrier (20) and nozzle assembly is arranged. Device after Claim 1 wherein the stabilization module (8) is formed by a flat rectangular housing (12) in which a series of actuators (10) is arranged, which are individually adjustable relative to each other laterally over the bandwidth. Device after Claim 1 or 2 wherein the lower edge of the stabilizing module (8) is spaced from the top of the nozzle assembly or hollow beam (21) to form an air window between the nozzle assembly and the stabilizing module. Device according to one of the preceding claims, wherein the distance in the strip running direction between the lower edge of the stabilizing module (8) and the upper edge of the hollow beam (21) is adjustable. Device according to one of the preceding claims, wherein the two carriers (20) on both sides of the metal strip (4) are movable relative to each other perpendicular to the band plane. Device according to one of the preceding claims, wherein the stabilization module (8) by means of quick-release fasteners (12a) on the support (20) is mounted, which allow a relative movement of the stabilization module (8) relative to the carrier (20).

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